Piyush K. Ojha,∗ Parashuram Thakura,∗∗ and Sarode S. Kumar∗∗
[1] Y. Chen and K. Smedley, Three-phase boost-type gridconnected inverter, IEEE Transactions on Power Electronics, 23(5), 2008, 2301–2309. [2] Y. Zhou, W. Huang, F. Hong, and C. Wang, Modelling analysis and power loss of coupled-inductor single-stage boost inverter based grid-connected photovoltaic power system, IET Power Electronics, 9(8), 2016, 1664–1674. [3] T. Sreekanth, N. Lakshminarasamma, and M.K. Mishra, A single-stage grid-connected high gain buck–boost inverter with maximum power point tracking, IEEE Transactions on Energy Conversion, 32(1), 2016, 330–339. [4] S. Jain and V. Agarwal, A single-stage grid connected inverter topology for solar PV systems with maximum power point tracking, IEEE Transactions on Power Electronics, 22(5), 2007, 1928–1940. [5] D. Debnath and K. Chatterjee, Solar photovoltaic-based standalone scheme incorporating a new boost inverter, IET Power Electronics, 9(4), 2016, 621–630. [6] R.O. Caceres and I. Barbi, A boost DC–AC converter: Operation, analysis, control and experimentation, Proc. IEEE IECON’95 Conf., Orlando, FL, 1995, 546–551. [7] R.O. Caceres and I. Barbi, A boost DC–AC converter: Analysis, design, and experimentation, IEEE Transactions on Power Electronics, 14(1), 1999, 134–141. [8] P. Sanchis, A. Ursaea, E. Gubia, and L. Marroyo, Boost DCAC inverter: A new control strategy, IEEE Transactions on Power Electronics, 20(2), 2005, 343–353. [9] C. Cecati, S. Member, A.D. Aquila, and M. Liserre, A novel three-phase single-stage distributed power inverter, IEEE Transactions on Power Electronics, 19(5), 2004, 1226–1233. [10] M. Jang and V.G. Agelidis, A boost-inverter-based, batterysupported, fuel-cell sourced three-phase stand-alone power supply, IEEE Transactions on Power Electronics, 29(12), 2014, 6472–6480. [11] G. Zhu, C. Xiao, H. Wang, and S. Tan, Closed-loop waveform control of boost inverter, IET Power Electronics, 9, 2016, 1808–1818. [12] R. Wai, S. Member, Y. Lin, and Y. Liu, Design of adaptive fuzzy-neural-network control for a single-stage boost inverter, IEEE Transactions on Industrial Electronics, 30(12), 2015, 7282–7298. [13] Y. Tang, Y. Bai, J. Kan, and F. Xu, Improved dual boost inverter with half cycle modulation, IEEE Transactions on Power Electronics, 32(10), 2017, 7543–7552. [14] A. Abramovitz, B. Zhao, and K.M. Smedley, High-gain single-stage boosting inverter for photovoltaic applications, IEEE Transactions on Power Electronics, 31(5), 2016, 3550–3558. [15] R.D. Middlebrook and S. Cuk, A general unified approach to modelling switching-converter power stages, IEEE Power Electronics Specialists Conf., Cleveland, OH, USA, 1976, 18–34. [16] R.W. Erickson and D. Maksimovic, Fundamentals of power electronics, 2nd ed. (Norwell, MA, USA: Kluwer, 2001), 187–247. [17] M.K. Nguyen and T.-T. Tran, A single-phase single-stage switched-boost inverter with four switches, IEEE Transactions on Power Electronics, 33(8), 2017, 6769–6781. [18] T.T. Tran and M.-K. Nguyen, Cascaded five-level quasiswitched-boost inverter for single-phase grid-connected system, IET Power Electronics, 10(14), 2017, 1896–1903. [19] A. Astolfi, Model reduction by moment matching for nonlinear systems, IEEE Transactions on Automatic Control, 55(3), 2008, 4873–4878. [20] M.J. Bosley and F.P. Lees, A survey of simple transfer-function derivations from high order state-variable models, Automatica, 8, 1974, 765–775. [21] K.-C. Tseng, J.-Z. Chen, J.-T. Lin, C.-C. Huang, and T.-H. Yen, High step-up interleaved forward-flyback boost converter with three-winding coupled inductors, IEEE Transactions on Power Electronics, 30(9), 2015, 4696–4703. [22] T. Nouri, S.H. Hosseini, E. Babaei, and J. Ebrahimi, Interleaved high step-up DC–DC converter based on three-winding highfrequency coupled inductor and voltage multiplier cell, IET Power Electronics, 8(2), 2014, 175–189. [23] L. He, X. Xu, J. Chen, J. Sun, D. Guo, and T. Zeng, A plugplay active resonant soft switching for current-auto-balance interleaved high step-up DC/DC converter, IEEE Transactions on Power Electronics, 34(8), 2018, 7603–7616. [24] B. Zhu, Q. Zeng, Y. Chen, Y. Zhao, and S. Liu, A dualinput high step-up DC/DC converter with ZVT auxiliary circuit, IEEE Transactions on Energy Conversion, 34(1), 2018, 161–169. 215
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